CN113099598A - Static electricity removing device and method for plastic particle production - Google Patents

Abstract

The invention discloses a static electricity removing device for plastic particle production, which comprises a material discharging box, a first adjusting component, a second supporting frame, a second adjusting component, a conveying component and a static electricity removing component, wherein the first adjusting component can change the size of a material inlet at the bottom of the material discharging box to prevent plastic particles from accumulating at the bottom of a baffle plate, so that the plastic particles can pass through the bottom of the second adjusting component more uniformly, the flexibility of the device is realized, the second adjusting component can be adjusted to change the height of a first hairbrush to facilitate the plastic particles with different specifications to pass through the bottom of the first hairbrush, the flow velocity of the plastic particles passing through the bottom of the first hairbrush can also be properly adjusted, a plurality of static electricity removing hairbrushes are arranged in the static electricity removing component to remove the static electricity of the plastic particles more completely, the flexibility of the device is realized, a plurality of leakage holes are formed in the surface of a leakage plate to facilitate screening of some fine plastic, the convenience of use of the device is realized.

Description

Static electricity removing device and method for plastic particle production

Technical Field

The invention relates to a static removing device, in particular to a static removing device for plastic particle production, and belongs to the technical field of application of static removing devices.

Background

In the plastic granules production and processing process, the static electricity removing device is indispensable, and static electricity is removed from the plastic granules through the static electricity removing device, so that the stability of the plastic granules is better, the plastic granules are reprocessed in the later stage and put into use more safely, and the plastic granules can be better fused with other ingredients.

Chinese patent with application number CN201910203052.1 discloses a plastic particle static electricity removing device, which comprises a base, wherein a machine body is arranged on the base, a static electricity removing mechanism is arranged on the machine body, a feeding cylinder is arranged at the top of the machine body, a feeding hole is arranged at the top of the feeding cylinder, a material receiving vehicle is arranged on the base, the feeding cylinder is arranged at the upper side of the static electricity removing mechanism, and the material receiving vehicle is arranged at the lower side of the static electricity removing mechanism; the static electricity removing mechanism comprises a material guide cylinder, the upper part of the material guide cylinder is provided with the static electricity removing cylinder, the inner bottom of the static electricity removing cylinder is provided with a plurality of ion air rods which are arranged at equal intervals, the upper end of the material guide cylinder is communicated with the side wall of the bottom of the material feeding cylinder, and the lower end of the material guide cylinder is arranged above the material collecting vehicle; the inner bottom positions of the material guide cylinder and the material feeding cylinder are provided with a vibration feeding plate, and the lower end of the vibration feeding plate is arranged above the material receiving vehicle. According to the invention, the ion wind rod is positioned and installed through the static removing cylinder, and the static removing wind is blown out from the wind outlet groove by the ion wind rod, so that the efficiency of static removing treatment on plastic particles is greatly improved.

The existing static removing device for plastic particle production still has great defects when in use, the existing static removing device for plastic particle production only can remove static for plastic particles with the same specification and height, the range of adaptation is small, the existing static removing device cannot completely remove static for the plastic particles, and secondly, the collected plastic particles are not clean after the static removal.

Disclosure of Invention

The invention aims to solve the problems that the existing static removing device for plastic particle production can only remove static from plastic particles with the same specification and height, and the adaptation range is small; the existing static removing device can not thoroughly remove static of plastic particles; the prior collecting device can not collect the plastic particles completely after the static electricity is removed, and provides the static electricity removing device for plastic particle production.

The purpose of the invention can be realized by the following technical scheme: a static removing device for plastic particle production comprises a discharge box, a first adjusting assembly, a second supporting frame, a second adjusting assembly, a conveying assembly and a static removing assembly, wherein the first supporting frame is welded on one side of the discharge box;

the bottom of the material placing box is provided with a notch II, the top of the material placing box is provided with a material inlet, one side of the material placing box is welded with a baffle plate IV, and one side of the baffle plate IV is welded with an adjusting assembly II;

the adjusting assembly II comprises a screw rod, a first sliding block, a second sliding block and a fifth baffle plate, the top of the screw rod is connected with a third motor, the bottom of the screw rod is connected with the first sliding block, the screw rod is connected with a nut, the fifth baffle plate is welded on one side of the sliding block, the first brush is connected with the bottom of the fifth baffle plate, the second sliding block is welded on one side of the fifth baffle plate, a sliding rod is connected in the middle of the second sliding block in a penetrating mode, a supporting block is welded on the top of the sliding rod, and the supporting;

the bottom of the second support frame is welded with a plurality of first support rods, two sides of the second support frame are welded with second baffles, and the top of the second support frame is provided with a static elimination assembly;

the static eliminating assembly comprises a static eliminating hairbrush, a protection box and a motor I, wherein the static eliminating hairbrush is welded in the middle of the protection box at equal intervals, and one end of the static eliminating hairbrush is provided with the motor I;

two install conveying assembly between the baffle two, conveying assembly includes motor two and track, motor two is installed in one side of baffle, conveying assembly's one end welding has

And the discharge port is provided with a third baffle on two sides of the discharge port, a bushing plate is welded between the third baffles, and the bottom of the bushing plate is connected with a collecting box.

The invention has further technical improvements that: the backup pad is the cuboid structure, and the equal welding of a plurality of bracing piece two is at the top of baffle two, the adaptation is thought with baffle six to the height and the width of notch two, baffle six runs through in the bottom of material case through notch two, six swing joint of pneumatic cylinder, hydraulic stem and baffle, and the bottom of blowing case is provided with the slide that the slope was placed.

The invention has further technical improvements that: the first brush is arranged between the two second baffle plates, the protection box is arranged between the two second baffle plates, two ends of the protection box are hollow out, and the conveying assembly is arranged between the two second baffle plates.

The invention has further technical improvements that: the first sliding block, the second sliding block and the supporting block are all of cuboid structures, the fifth baffle is of a cuboid structure, the fourth baffle is far away from the fifth baffle, and the first hairbrush is arranged above the caterpillar band.

The invention has further technical improvements that: the screw rod, the first sliding block and the nut are movably connected, the first sliding rod and the second sliding block are movably connected, the first sliding rod is of a cylindrical structure, and a ball bearing is arranged in the middle of the second sliding block.

The invention has further technical improvements that: one end of the static elimination hairbrush is connected to one side of the protection box, the middle of the static elimination hairbrush is connected with a second sliding rod, the second hairbrush is evenly paved on the surface of the second sliding rod, the second sliding rod is of a cylindrical structure, and a ball bearing is connected between the second sliding rod and the protection box.

The invention has further technical improvements that: the two ends of the crawler belt are connected with rolling shafts, the rolling shafts are connected between the two second baffles through ball bearings, and the crawler belt is parallel to the second baffles.

The invention has further technical improvements that: the surface of the bushing plate is provided with a plurality of hollowed holes with the same size, the bushing plate is arranged below the track, the middle of the collecting box is hollowed, and one side of the baffle III is welded on one side of the baffle II.

A method of a static electricity eliminating device for plastic particle production is characterized by comprising the following steps:

the method comprises the following steps: the plastic particles are placed in the discharging box, the plastic particles reach the bottom of the baffle plate IV through the feeding hole, the baffle plate VI is driven to move through the hydraulic cylinder and the hydraulic rod, and the size of the feeding hole at the bottom of the discharging box is changed;

step two: the bottom of the baffle plate is provided with a first notch, the first notch is used for driving the plastic particles to pass through the first notch by extruding the plastic particles to a certain degree through the hairbrush and driving the track to move clockwise through the motor II, so that the plastic particles are uniformly laid on the track, and the height of the first hairbrush is changed by adjusting the adjusting component II, so that the flow rate of the plastic particles passing through the first notch is controlled;

step three: the motor drives the plurality of static elimination hairbrushes to rotate clockwise, the plastic particles pass through the bottoms of the hairbrushes II to turn over the plastic particles, and the plurality of hairbrushes remove static on the surfaces of the two pairs of plastic particles;

step four: through having seted up a plurality of small holes and placing the collecting box in the bushing bottom on the bushing surface, the dust and some tiny plastic granules that screening and collection plastic granules produced.

Compared with the prior art, the invention has the beneficial effects that:

1. the bottom of blowing case has been seted up notch two, drive six movements of baffle through pneumatic cylinder and hydraulic stem, baffle six changes the size of blowing bottom of the case portion feed inlet through notch two, can avoid plastic granules to pile up in the bottom of baffle four like this, the track passes through motor two and is clockwise motion, make plastic granules pass through two bottoms of adjusting part even more, be convenient for make the even surface of laying at the track of plastic granules, the flexibility of the device has been realized.

2. Through having seted up notch one in four bottoms of baffle, the plastic granules of being convenient for move the bottom of brush one like this, through the extrusion of a pair of plastic granules certain degree of brush, under the drive of track, the even laying of plastic granules of being convenient for is on the track, it is more complete to destatic the plastic granules to be convenient for destatic the subassembly, the device's flexibility has been realized, through adjusting part two, can change the height of brush one, on the one hand can suitably adjust according to plastic granules's size, the plastic granules of being convenient for passes through from brush one bottom, on the other hand can suitably adjust the velocity of flow that plastic granules passes through brush one bottom, the even laying of plastic granules of being convenient for is on the track surface, the device's flexibility has been realized.

3. Through install a plurality of static elimination brushes in the subassembly that destatics can destatics more completely to plastic granules, secondly through rotating the static elimination brush, can make plastic granules take place the upset, the brush of being convenient for like this is destatic more completely to the plastic granules surface, has realized the device's flexibility, protects the static elimination brush on the one hand through the guard box, and on the other hand avoids the static elimination brush to cause plastic granules to roll out the track when destatic to plastic granules, has realized the device's practicality.

4. Through having seted up a plurality of small holes on the bushing surface, be convenient for select some tiny plastic granules, can also clear away some dusts that plastics itself carried in addition, make the plastic granules that has removed static clean more complete, placed the collecting box bottom the bushing, be convenient for collect the dust and some tiny plastic granules that plastic granules produced like this, make the more clean complete of plastic granules who collects, realized the device's convenience.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of the support frame of the present invention.

Fig. 3 is a four-sided view of the baffle of the present invention.

FIG. 4 is a schematic structural diagram of a second adjusting assembly of the present invention.

FIG. 5 is a schematic structural diagram of a second sliding block, a sliding rod and a supporting block according to the present invention.

FIG. 6 is a schematic view of an adjusting assembly according to the present invention.

FIG. 7 is a top view of the material discharge box of the present invention.

FIG. 8 is a side view of the drop box of the present invention.

Fig. 9 is a cross-sectional view of the static discharge assembly and protective case of the present invention.

In the figure: 1. a material placing box; 101. a feed inlet; 2. a first adjusting component; 201. a first baffle plate; 3. a first support frame; 4. a second support frame; 401. a first supporting rod; 5. a second adjusting component; 6. a static electricity eliminating component; 601. a first motor; 7. a transfer assembly; 8. a crawler belt; 9. a second motor; 10. a second baffle plate; 11. a baffle III; 1101. a bushing; 1102. a collection box; 1103. a discharge port; 12. a baffle plate IV; 13. a support plate; 14. a second supporting rod; 15. a first notch; 16. a third motor; 17. a screw rod; 1701. a nut; 18. a first sliding block; 19. a first sliding rod; 20. a second sliding block; 2001. a support block; 21. a baffle plate V; 22. a first brush; 23. a hydraulic cylinder; 24. a hydraulic lever; 25. a sixth baffle plate; 26. a second notch; 27. a static elimination brush; 28. a protection box; 29. a second brush, 30 and a second sliding rod.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, a static electricity removing device for plastic particle production comprises a material discharging box 1, a first adjusting component 2, a second supporting frame 4, a second adjusting component 5, a first conveying component 7 and a static electricity removing component 6, wherein the first supporting frame 3 is welded on one side of the material discharging box 1, the first adjusting component 2 is supported, a plurality of first supporting rods 401 are welded on the bottom of the first supporting frame 3 through the size of a bottom material port of a material inlet 101 of the first adjusting component 2, the second supporting frame is supported to ensure stable static electricity removal of plastic particles, a supporting plate 13 is welded on the top of the first supporting frame 3, a first baffle 201 is welded on the bottom of the supporting plate 13, a hydraulic cylinder 23 is welded on one side of the first baffle 201, one hydraulic cylinder 23 is connected with a hydraulic rod 24, a sixth baffle 25 is welded on one side of the hydraulic rod 24 to facilitate welding, the space size of the feeding hole 101 at the bottom of the discharging box 1 is convenient to adjust, so that plastic particles are not easy to accumulate at the bottom of the baffle plate IV 12;

the bottom of the discharging box 1 is provided with a second notch 26, the top of the discharging box 1 is provided with a feeding hole 101, one side of the discharging box 1 is welded with a fourth baffle 12, plastic particles are prevented from overflowing at the fourth baffle 12, one side of the fourth baffle 12 is welded with a second adjusting component 5, the height of the first brush 22 can be changed, on one hand, the first brush can be properly adjusted according to the size of the plastic particles, the plastic particles can conveniently pass through the bottom of the first brush 22, on the other hand, the flow velocity of the plastic particles passing through the bottom of the first brush 22 can be properly adjusted, and the plastic particles can be conveniently and uniformly paved;

wherein, the second adjusting component 5 comprises a screw rod 17, a first sliding block 18, a second sliding block 20 and a fifth baffle 21, the top of the screw rod 17 is connected with a third motor 16, the bottom of the screw rod 17 is connected with a first sliding block 18, the screw rod 17 is connected with a nut 1701 which fixes the first sliding block 18 to prevent the first sliding block 18 from sliding off and further prevent the first brush 22 from working unstably, the fifth baffle 21 is welded on one side of the first sliding block 18 to facilitate the welding of the first sliding block 18 and the second sliding block 20 to enable the first brush 22 to move up and down stably, further the first brush 22 brushes plastic particles at the bottom more completely, so that the plastic particles are laid on the surface of the crawler belt 8 uniformly, the first brush 22 is connected on the bottom of the fifth baffle 21, the second sliding block 20 is welded on one side of the fifth baffle 21, a sliding rod 19 is connected in the middle part of the second, the top of the sliding rod 19 is welded with a supporting block 2001, and the supporting block 2001 is welded on one side of the baffle plate IV 12, so that the sliding rod 19 can move up and down stably and the second adjusting assembly 5 is prevented from side turning;

the bottom of the second support frame 4 is welded with a plurality of first support rods 401, the two sides of the second support frame 4 are both welded with second baffles 10, so that the crawler 8 can work more safely, plastic particles can be prevented from falling off from the crawler 8, and the top of the second support frame 4 is provided with the static removing assembly 6, so that the static removal of the plastic particles is facilitated;

the static removing component 6 comprises a static removing brush 27 (model: LP 9465; manufacturer: mechanical equipment limited company in Hill county, Anhui province, and production manufacturers), a protection box 28 and a motor I601, wherein the static removing brush 27 is welded in the middle of the protection box 28 at equal intervals, so that static removing of plastic particles is more thorough, the motor I601 is installed at one end of the static removing brush 27 and drives the static removing brush 27 to rotate clockwise, and then the plastic particles are driven to turn over, and therefore the plastic particles are subjected to omnibearing static removing;

a conveying component 7 is arranged between the two second baffles 10, so that the plastic particles can be conveniently destaticized on the caterpillar band 8, the work efficiency is improved, the conveying component 7 comprises a second motor 9 and the caterpillar band 8, the second motor 9 is arranged on one side of the second baffles 10, a discharge port 1103 is welded at one end of the conveying component 7, so that the destaticized plastic particles can be conveniently collected, baffle three 11 is welded on two sides of the discharge port 1103, the plastic particles are prevented from falling off the caterpillar band 8, the destaticized plastic particles can be completely collected, a leakage plate 1101 is welded between the two baffle three 11, so that some fine plastic particles can be conveniently screened out, some dust carried by the plastic can be conveniently removed, the destaticized plastic particles are enabled to be cleaner and more complete, a collecting box 1102 is connected at the bottom of the leakage plate 1101, so that some dust carried by the plastic itself and some fine plastic particles can be, the collected plastic particles are cleaner and more complete;

backup pad 13 is the cuboid structure, two 14 all welds in the top of two 10 baffles of a plurality of bracing piece, be convenient for plastic granules from the bottom of blowing case 1 reachs on track 8, thereby accomplish plastic granules's static electricity removal process, the adaptation is thought with six 25 baffles to the height and the width of notch two 26, six 25 baffles run through the bottom at material case 1 through notch two 26, pneumatic cylinder 23, 24 and six 25 swing joint of baffle of hydraulic stem, be convenient for change the velocity of flow of plastic granules at drain hole 101, avoid plastic granules to take place the circumstances of piling up in four 12 bottoms of baffle, the bottom of blowing case 1 is provided with the slide that the slope was placed, be convenient for plastic granules arrives on track 8 from the bottom of blowing case 1, thereby accomplish the static electricity removal process of plastic granules.

The first brush 22 is arranged between the two second baffles 10, the protection box 28 is arranged between the two second baffles 10, plastic particles are prevented from falling off the crawler 8, the two ends of the protection box 28 are hollow, the plastic particles are convenient to remove static electricity inside the protection box, and the conveying assembly 7 is arranged between the two second baffles 10, so that the plastic particles are prevented from falling off the crawler 8.

First 18, second 20 and the supporting shoe 2001 of slider all are the cuboid structure, and five 21 of baffle are the cuboid structure, and four 12 baffle are kept away from to five 21 one sides of baffle, and first 22 brushes are in the top of track 8, are convenient for adjust the height of adjusting part two 5, and then are convenient for plastic granules to pass through from first 22 brushes bottoms, and the subassembly 6 that destatics of being convenient for is more thorough to the plastic granules destatics.

The screw rod 17, the first sliding block 18 and the nut 1701 are movably connected, the first sliding rod 19 and the second sliding block 20 are movably connected, the first sliding rod 19 is of a cylindrical structure, and a ball bearing is arranged in the middle of the second sliding block 20.

Eliminate one end of static brush 27 and connect in one side of guard box 28, eliminate static brush 27 middle part and be connected with two slide bars 30, two 30 even brush two 29 of having laid in slide bar surface, and two 30 slide bars are the cylinder structure, eliminate static brush 27 and be clockwise rotation under motor 601 drives, and then drive plastic granules and take place the upset, thereby carry out all-round to plastic granules and destatic and be connected with ball bearing between two 30 slide bars and the guard box 28, it is more steady to be convenient for eliminate static brush 27 pivoted, and then destatic more thoroughly to plastic granules.

8 both ends of track all are connected with the roller bearing, and the roller bearing all connects between two baffles 10 through ball bearing, and is parallel between track 8 and the two baffles 10, can make plastic granules steadily move on track 8, avoids plastic granules to drop from track 8, and then accomplishes plastic granules's the static process that destatics.

The bushing 1101 surface is seted up the small-size weeping holes of a plurality of, and the bushing 1101 is in the below of track 8, collecting box 1102 middle part fretwork, and the welding of three 11 one sides of baffle is in one side of baffle two 10, is convenient for select the dust and some tiny broken plastic granules that mix together with plastic granules to and be convenient for collect some dusts that plastics itself carried and collect some tiny plastic granules, make the plastic granules of collection cleaner complete.

A static electricity removing method of a static electricity removing device for plastic particle production specifically comprises the following steps:

the method comprises the following steps: plastic particles are placed in the discharging box 1 and reach the bottom of the baffle plate IV 12 through the feeding hole 101, and the baffle plate VI 25 is driven to move through the hydraulic cylinder 23 and the hydraulic rod 24, so that the size of the feeding hole 101 in the bottom of the discharging box 1 is changed;

step two: the bottom of the baffle plate IV 12 is provided with a notch I15, the first brush 22 extrudes the plastic particles to a certain degree, and the second motor 9 drives the crawler 8 to clockwise move to drive the plastic particles to pass through the notch I15, so that the plastic particles are uniformly laid on the crawler 8, the height of the first brush 22 is changed by adjusting the adjusting component II 5, and the flow rate of the plastic particles passing through the notch I15 is controlled;

step three: the first motor 601 drives the plurality of static electricity eliminating brushes 27 to rotate clockwise, plastic particles pass through the bottoms of the second brushes 19 to turn over the plastic particles, and the plurality of second brushes 29 eliminate static electricity on the surfaces of the plastic particles;

step four: dust generated by plastic particles and some fine plastic particles are screened and collected by opening a plurality of orifices on the surface of the nozzle plate 1101 and placing a collection box 1102 at the bottom of the nozzle plate 1101.

When the plastic particle feeding device is used, firstly, the motor I601 of the motor is started to enable the static elimination brush 27 to rotate clockwise, then the motor II 9 is started to enable the crawler 8 to move clockwise, plastic particles are poured into the material discharging box 1 through the feeding hole 101, the plastic particles move to the bottom of the baffle plate IV 12 through the bottom inclined plate of the material discharging box 1, the plastic particles are driven to move through the crawler 8 and reach the bottom of the brush I22, the brush I22 extrudes the plastic particles to a certain degree, the plastic particles passing through the brush I22 are uniformly paved on the surface of the crawler 8, when more plastic particles are piled at the bottom of the baffle plate IV 12, the baffle plate IV 25 is driven to move through the hydraulic cylinder 23 and the hydraulic rod 24, the size of the feeding hole at the bottom of the material discharging box 1 is changed, therefore, a large amount of plastic particles can not be piled at the bottom of the baffle plate,

then, when the sizes of the plastic particles are different, the height of the second brush 22 can be changed by adjusting the second adjusting component 5, so that the plastic particles can flow out from the bottom of the second brush 22 and then are uniformly paved on the crawler 8, the flow rate of the plastic particles flowing out from the first notch 15 can also be properly adjusted, the efficiency of removing static electricity to the plastic particles is improved,

secondly, the plastic particles move into the protection box 28 through the crawler 8, then after the plastic particles move to the bottom of the static elimination brush 27, the second brush 29 eliminates static electricity on the surface of the plastic particles, the static elimination brush 27 is driven by the first motor 601 to rotate, the second brush 29 can turn over the plastic particles, the plastic particles move to the bottom of the next static elimination brush 27, the plastic particles are eliminated static electricity through the static elimination brushes 27, so that the static elimination of the plastic particles is more complete,

finally, after the plastic particles move to the bushing 1101, the bushing 1101 is provided with a plurality of holes for screening dust and some fine plastic particles generated by the plastic particles, and a collection box 1102 is disposed at the bottom of the bushing 1101 for collecting and disposing the dust and the fine plastic particles.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The utility model provides a plastic granules production is with static-removing device, includes blowing case (1), adjusting part (2), support frame two (4), adjusting part two (5), transfer assembly (7) and static-removing component (6), its characterized in that: a first support frame (3) is welded on one side of the material placing box (1), a plurality of first support rods (401) are welded at the bottom of the first support frame (3), a support plate (13) is welded at the top of the first support frame (3), a first baffle plate (201) is welded at the bottom of the support plate (13), a hydraulic cylinder (23) is welded on one side of the first baffle plate (201), one hydraulic cylinder (23) is connected with a hydraulic rod (24), and a sixth baffle plate (25) is welded on one side of the hydraulic rod (24);

the bottom of the material placing box (1) is provided with a second notch (26), the top of the material placing box (1) is provided with a feeding hole (101), one side of the material placing box (1) is welded with a fourth baffle plate (12), and one side of the fourth baffle plate (12) is welded with a second adjusting assembly (5);

the adjusting assembly II (5) comprises a screw rod (17), a first sliding block (18), a second sliding block (20) and a fifth baffle plate (21), the top of the screw rod (17) is connected with a third motor (16), the bottom of the screw rod (17) is connected with the first sliding block (18), the screw rod (17) is connected with a nut (1701), the fifth baffle plate (21) is welded on one side of the first sliding block (18), the first brush (22) is connected on the bottom of the fifth baffle plate (21), the second sliding block (20) is welded on one side of the fifth baffle plate (21), a sliding rod (19) is connected in the middle of the second sliding block (20) in a penetrating mode, a supporting block (2001) is welded on the top of the sliding rod (19), and the supporting block;

the bottom of the second support frame (4) is welded with a plurality of first support rods (401), two sides of the second support frame (4) are welded with second baffles (10), and the top of the second support frame (4) is provided with a static elimination assembly (6);

the static electricity eliminating assembly (6) comprises a static electricity eliminating brush (27), a protection box (28) and a first motor (601), wherein the static electricity eliminating brush (27) is welded in the middle of the protection box (28) at equal intervals, and the first motor (601) is installed at one end of the static electricity eliminating brush (27);

two install conveying assembly (7) between baffle two (10), conveying assembly (7) include motor two (9) and track (8), one side at baffle (10) is installed in motor two (9), the welding of one end of conveying assembly (7) has

The discharge port (1103), the equal welding of discharge port (1103) both sides has baffle three (11), two the welding has bushing (1101) between baffle three (11), bushing (1101) bottom is connected with collecting box (1102).

2. The static electricity removing device for plastic particle production according to claim 1, wherein: backup pad (13) are the cuboid structure, and a plurality of bracing piece two (14) are all welded at the top of baffle two (10), the adaptation is thought with baffle six (25) to the height and the width of notch two (26), baffle six (25) run through in the bottom of material case (1) through notch two (26), pneumatic cylinder (23), hydraulic stem (24) and baffle six (25) swing joint, and the bottom of blowing case (1) is provided with the slide that the slope was placed.

3. The static electricity removing device for plastic particle production according to claim 1, wherein: the first brush (22) is arranged between the two second baffle plates (10), the protection box (28) is arranged between the two second baffle plates (10), two ends of the protection box (18) are hollow out, and the conveying assembly (7) is arranged between the two second baffle plates (10).

4. The static electricity removing device for plastic particle production according to claim 1, wherein: the first sliding block (18), the second sliding block (20) and the supporting block (2001) are all of a cuboid structure, the fifth baffle (21) is of a cuboid structure, one side of the fifth baffle (21) is far away from the fourth baffle (12), and the first brush (22) is arranged above the crawler belt (8).

5. The static electricity removing device for plastic particle production according to claim 1, wherein: the screw rod (17), the first sliding block (18) and the nut (1701) are movably connected, the first sliding rod (19) and the second sliding block (20) are movably connected, the first sliding rod (19) is of a cylindrical structure, and a ball bearing is arranged in the middle of the second sliding block (20).

6. The static electricity removing device for plastic particle production according to claim 1, wherein: eliminate static brush (27) one end and connect in one side of guard box (28), eliminate static brush (27) middle part and be connected with slide bar two (30), slide bar two (30) even brush two (29) of having laid in surface, slide bar two (30) are the cylinder structure, are connected with ball bearing between slide bar two (30) and guard box (28).

7. The static electricity removing device for plastic particle production according to claim 6, wherein: the two ends of the crawler belt (8) are connected with rolling shafts, the rolling shafts are connected between the two baffle plates (10) through ball bearings, and the crawler belt (8) is parallel to the baffle plates (10).

8. The static electricity removing device for plastic particle production according to claim 1, wherein: the surface of the bushing plate (1101) is provided with a plurality of hollowed holes with the same size, the bushing plate (1101) is arranged below the crawler belt (8), the middle of the collection box (1192) is hollowed, and one side of the baffle III (11) is welded on one side of the baffle II (10).

9. The use method of the static eliminating device for plastic particle production according to any one of claims 1 to 8 is characterized by comprising the following steps:

the method comprises the following steps: plastic particles are placed in the material placing box (1), the plastic particles reach the bottom of the baffle plate IV (12) through the material inlet (101), the baffle plate VI (25) is driven to move through the hydraulic cylinder (23) and the hydraulic rod (24), and the size of the material inlet (101) at the bottom of the material placing box (1) is changed;

step two: the bottom of the baffle plate IV (12) is provided with a notch I (15), the plastic particles are extruded to a certain degree through the hairbrush I (22) and the motor II (9) drives the track (8) to move clockwise, the plastic particles are driven to pass through the notch I (15), the plastic particles are uniformly laid on the track (8), the height of the hairbrush I (22) is changed through adjusting the adjusting component II (5), and the flow rate of the plastic particles passing through the notch I (15) is controlled;

step three: the first motor (601) drives the plurality of static elimination brushes (27) to rotate clockwise, plastic particles pass through the bottoms of the second brushes (19) to turn over the plastic particles, and the second brushes (29) remove static on the surfaces of the plastic particles;

step four: dust generated by plastic particles and some fine plastic particles are screened and collected by forming a plurality of leakage holes on the surface of the leakage plate (1101) and placing a collection box (1102) at the bottom of the leakage plate (1101).

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